KR20060079643A - Apparatus for generating magnetic resonance ionic water using electrolysis equipment and magenetization equipment - Google Patents

Abstract

The present invention is to provide a magnetized ionizer using an electrolytic device and a magnetizer, a pre-treatment filter unit for removing impurities by primarily filtering the influent water; Magnetization processing unit comprising a magnetization unit for magnetizing the influent water flowing out through the pre-treatment filter unit using an electromagnet, and a magnetic control unit electrically connected to the magnetization unit to control the current on, off or adjust the amount of current Wow; It consists of an electrolytic cell for electrolyzing and ionizing the inflow water that is magnetized from the magnetization processing section.

The magnetization treatment unit may have an elongated hollow tube shape, and may further include a bypass tube positioned around the magnetization unit to allow the inflow water from the electrolytic cell to flow out again around the magnetization unit.

Electromagnet, magnetized water, magnetized ionized water, magnetic resonance ionic water

Description

Magnetization ionizer using electrolytic device and magnetizer {Apparatus for generating magnetic resonance ionic water using electrolysis equipment and magenetization equipment}

1 is a cross-sectional view of a conventional magnetized water generating device for ionizer.

2 is a conceptual diagram showing a structure of water molecules having a cluster shape.

3 is a conceptual diagram according to an embodiment of the present invention.

4 is a conceptual diagram according to an embodiment of the present invention.

5 is a working principle of the electrolytic cell of the present invention.

Figure 6 is a detailed operational flow diagram according to one embodiment shown in FIG.

Explanation of symbols on the main parts of the drawings

110: pretreatment filter unit 120: magnetization processing unit

121a, 121b: magnetization 121a-1: piping

121a-2, 121b-2: cylindrical iron plate 121a-3, 121b-3: coil

122a, 122b: magnetic regulator 123a, 123b: bypass tube

130: electrolytic cell

The present invention relates to a magnetized ionizer using an electrolytic device and a magnetizer. In particular, a magnetization treatment unit using an electromagnet is used to decompose agglomerated clusters of influent water, and to adjust the magnetic field to match the flow rate and flow rate, thereby providing stable magnetized ionized water. The present invention relates to a magnetized ionizer using an electrolytic device and a magnetizer capable of producing and preventing water pollution.

In general, the ion water generator is a device that generates ionized water with alkaline and acidic properties through electrolysis of water. Such ionized water generator is already widely used in the field of treatment and prevention through clinical diagnosis. The ionizer generator separates the anode and the cathode through the porous separator, and then proceeds to the reaction scheme shown below at each electrode to generate ionized water.

[Scheme]

A cathode _{(Cathode): 2H 2 O +} 2e - → H 2 + 2OH -

An anode _{(Anode): 2H 2 O →} O 2 + 4H - + 2e -

As a result of the above chemical decomposition method, the water passed through the cathode (Cathode) is alkaline water, the water passed through the anode (Anode) is changed to the acidic water chemical pH. The only way to artificially change the chemical pH of water is by chemical decomposition. The generated ionized water is widely used in various fields and is mainly used for medical purposes, so it is necessary to increase the activity of water as much as possible. Water molecules are mainly composed of clusters, which can cause many obstacles to the activity of each water molecule. The shape of the cluster of water molecules is shown in FIG. 2.

With the development of modern industrial society, water pollution is intensifying, and modern people need clean and stable water. Moreover, as the perception of the importance of water increases as people experience big and small accidents related to drinking water, the use ratio of water purifiers and ionizers is gradually increasing at home and abroad. This is due to the seriousness of water pollution and the improvement of people's standard of living, so that the quality of life is getting higher and now the society is rapidly being replaced by healthy water such as ionizer rather than clean water of water purifier. Well-being is causing the boom.

However, most of the ionizers currently distributed in Korea are ionized water in which water molecules are unstable by dividing the water passed through the electrolyzer into alkaline water and acidic water, while decomposing the water molecular cluster into a magnetization purifier. The method is important because it can supply a stable magnetic ionization water (Magnetic Resonance Ionic Water). In addition, the water purified in some water purifiers is exposed to germ propagation by storing and supplying water. Polluted and unsafe drinking water and ionized water create an environment that is harmful to people's health. By supplying high quality water to the ionization of treated and stable water molecules, it contributes to the improvement of national health and the importance of magnetic resonance ionic water is gradually increasing.

In particular, environmental pollution due to various pollutions has emerged as the most important social problem. Among the various environmental pollutions such as air pollution, land pollution, and water pollution, pollution of natural waters such as river water, seawater, hot spring water, etc. It has become a serious problem to limit its use. Therefore, in public places such as homes, schools, workplaces, and public offices, people have to install cold and hot water to drink water. Therefore, the situation is developing magnetized ionized water to promote national health. And the acidic water of magnetized ionized water is mainly used for cosmetics, and alkaline water is mainly used for beverages.

1 is a cross-sectional view of a conventional magnetized water generating device for ionizer.

As shown in the drawing, between the positive electrode (+) and the negative electrode (-) on which the cover 1 is installed is separated by the diaphragm 1c of the main body 10, two compartments, that is, the acidic water chamber 1a and the alkaline water chamber ( 1b) and a fixed holder 4 incorporating the magnetic material 6 at the lower end of the supply port of the alkaline water chamber 1b.

Conventional magnetizers, however, are not able to properly remove other ionic substances attached to the electrolyzer by simply generating magnetized water by the magnetism of permanent magnets, and also have no function of controlling the strength of the magnetic field according to the flow rate or flow rate. There was a problem in not responding properly to the change in flow rate.

Accordingly, the present invention has been proposed to solve the conventional problems as described above, and an object of the present invention is to give a purified electromagnetism to the strong electromagnetism to decompose the water molecular cluster, and to remove the water in the stable water molecular structure The present invention provides an electromagnetism device and a magnetization ionizer using a magnetizer that can adjust the strength of a magnetic field according to flow rate and flow rate.

The magnetization ionizer using the present invention, the electrolytic device and the magnetizer,

A pre-treatment filter unit for filtering impurities in primary water to remove impurities; Magnetization processing unit comprising a magnetization unit for magnetizing the influent water flowing out through the pre-treatment filter unit using an electromagnet, and a magnetic control unit electrically connected to the magnetization unit to control the current on, off or adjust the amount of current Wow; It consists of an electrolytic cell for electrolyzing and ionizing the inflow water that is magnetized from the magnetization processing section.

And the magnetization is provided with a long cylindrical iron plate, the outside of the cylindrical iron plate is equipped with a tourmaline ceramic rod-shaped pipe around the outer periphery of the electromagnet wound in a copper wire inflow water through the tourmaline ceramic rod-shaped pipe It can be configured to have a flowing structure. In order to prevent the external leakage of the magnetic field, an outer portion of the austenitic component in which nickel is added may be formed on the outside of the tourmaline ceramic rod-shaped pipe.

In addition, the magnetized portion of the iron plate in the form of a long hollow tube is wound around the copper wire, the inside is provided with an electromagnet having a structure coated with tourmaline ceramic, to have a structure that can flow water into the hollow tube-shaped iron plate Can be.

In addition, the magnetization treatment unit may have an elongated hollow tube shape, and may further include a bypass tube positioned around the magnetization unit to allow the inflow water from the electrolytic cell to flow out again around the magnetization unit.

Hereinafter, an embodiment according to the technical concept of the magnetization ionizer using the present invention, the electrolytic device and the magnetizer as described above will be described with reference to the accompanying drawings.

3 is a conceptual diagram according to an embodiment of the present invention.

As shown therein, the pretreatment filter unit 110 to remove impurities by first filtering the influent; The magnetization unit 121a for magnetizing the inflow water filtered out through the pretreatment filter unit 110 using an electromagnet, and the magnetization unit 121a are electrically connected to turn on or off the current or adjust the amount of current. A magnetization processor (120a) having a self-regulating unit (122a) for controlling the and a bypass tube (123a) having a long hollow tube shape and positioned around the magnetization unit (121a); It consists of an electrolytic cell 130 for electrolyzing and ionizing the influent water that is magnetized from the magnetization processing unit (120a).

The pretreatment filter unit 110 is made of various fibers, activated carbon, tourmaline, other ceramics, and the like to filter impurities contaminated by water purification to remove impurities.

And the magnetization portion 121a is provided with a long cylindrical iron plate (121a-2), the outside of the cylindrical iron plate 121a-2 is tourmaline around the outer periphery of the electromagnet wound with copper wire (121a-3) The ceramic rod-shaped pipe (121a-1) is mounted to have a structure in which the inflow water flows through the tourmaline ceramic rod-shaped pipe (121a-1).

Hereinafter, the operation of the magnetization ionizer using the electrolytic device and the magnetization device corresponding to one embodiment of the present invention will be described in detail.

First, when the inflow water flows into the pretreatment filter 110, the pretreatment filter unit 110 removes impurities by filtering the inflow water contaminated with the inflow water by a water treatment method. The inflow water filtered by the pretreatment filter 110 flows into the electrolytic cell 130 through the tourmaline ceramic rod-shaped pipe 121a-1. When the inflow water flows from the magnetic regulator 122a to the magnetization unit 121a while the inflow water flows through the tubular ceramic rod-like pipe 121a-1, the magnetization unit 121a is based on the principle of an electromagnet. Magnetic field is generated. Then, the giant water molecule cluster flowing into the tourmaline ceramic rod-shaped pipe 121a-1 passes through the tourmaline ceramic rod-shaped pipe 121a-1 and the dismantling of the cluster is caused. As described above, the inflow water in which the cluster is dismantled flows into the electrolytic cell 130. The electrolyzer 130 then ionizes the influent into alkaline and acidic water.

5 is a working principle of the electrolytic cell of the present invention.

As shown in the drawing, an electrolyte having a cation (calcium, magnesium, sodium, potassium, etc.) collects in a cathode in the form of ions and generates hydrogen gas in an alkali electrode of the electrolytic cell 130. Therefore, the hydroxyl group is in a state containing more than normal water.

In addition, electrolytes (chlorine, sulfur) having anions on the acid anode are collected in the form of ions, and acidic ionized water contains oxygen more than ordinary water because oxygen gas is generated during electrolysis.

Therefore, it is divided into acidic water and alkaline water by the above principle. When the positive and negative ions attached to the electrode fall from the electrode by changing the direction of the current, water may be introduced to clean the electrolytic cell 130.

The inflow water flowing out from the electrolytic cell 130 becomes more stable magnetized ion water under the influence of the magnetic field generated by the magnetization unit 121a while passing through the bypass pipe 123a.

4 is a conceptual diagram according to another embodiment of the present invention.

As shown therein, as shown therein, the pretreatment filter unit 110 removes impurities by first filtering the influent; The magnetization unit 121b for magnetizing the inflow water filtered out through the pretreatment filter unit 110 using an electromagnet, and the magnetization unit 121b are electrically connected to turn on or off the current or adjust the amount of current. A magnetization processing unit (120b) having a self-regulating unit (122b) for controlling the and a bypass tube (123b) having a long hollow tube shape and positioned around the magnetizing unit (121b); It consists of an electrolytic cell 130 for electrolyzing and ionizing the influent water that is magnetized from the magnetization processing section (120b).

The pretreatment filter unit 110 is made of various fibers, activated carbon, etc. to perform a function of filtering impurities contaminated by water purification method to remove impurities.

And the magnetization portion 121b is the outer side of the long hollow tube-shaped iron plate (121b-2) is wound around the copper wire (121b-3), the inside is provided with an electromagnet having a structure coated with tourmaline ceramic, the inside It is configured to have a structure in which water flows into the iron plate 121b-2 in the form of a hollow tube coated with tourmaline ceramic.

Hereinafter, the operation of the magnetization ionizer using the electrolytic device and the magnetization device corresponding to one embodiment of the present invention will be described in detail.

First, when the inflow water flows into the pretreatment filter 110, the pretreatment filter unit 110 removes impurities by filtering the inflow water contaminated with the inflow water by a water treatment method. The inflow water filtered by the pretreatment filter 110 flows into the electrolytic cell 130 through a cylindrical iron plate 121b-2 coated with tourmaline ceramic. When the inflow water flows the current from the self-regulator 122b to the magnetization 121b while the inside flows through the cylindrical iron plate 121b-2 coated with tourmaline ceramic, according to the principle of electromagnet. The magnetic field is generated in the magnetization unit 121b. Then, the large water molecule cluster flowing inside the cylindrical iron plate 121b-2 coated with tourmaline ceramic passes through the cylindrical iron plate 121b-2 in which the magnetic field is formed. As described above, the inflow water in which the cluster is dismantled flows into the electrolytic cell 130. The electrolyzer 130 then ionizes the influent into alkaline and acidic water.

And the operation principle of the electrolytic cell 130 is the same as the description of the embodiment of FIG.

The inflow water flowing out from the electrolytic cell 130 becomes magnetized ionized water that is more stable under the influence of the magnetic field generated in the magnetization part 121b while passing through the bypass pipe 123b.

Detailed operation of the magnetization ionizer using the electrolytic device and the magnetization device according to an embodiment of the present invention is as follows.

6 is a detailed operation flowchart according to an embodiment shown in FIG. 3 or FIG. 4.

As shown therein, when water containing contaminated or impurity enters through the inlet, the water supply valve V1 regulates the flow rate and flows to the pump P. The pump P is electrically connected to the microcomputer processor 120 ′ to block the inflow of hot water of 45 ° C. or more. Then, the water discharged from the pump P flows into the pretreatment filter unit 110. The pretreatment filter unit 110 performs a function of filtering impurities with a complex water purification cartridge. In addition, a sensor S is connected to an output terminal of the pretreatment filter unit 110, and the sensor S is also connected to a microcomputer processor 120 'such that the water flow amount reaches 12,000L or one year after starting use. When the elapsed time, the buzzer rings and the indicator flashes. And the water from the pretreatment filter unit is obtained to the magnetization treatment unit 120. And while the process as described in Figures 3 and 4, the water is magnetized to stabilize. The subsequent process is the same as the process described with reference to FIGS. 3 and 4. However, the drain control valve V2 is located at the output end of the magnetization processor 120 and is connected to the microcomputer processor 120 'to adjust the amount of drainage. The electrode regulator (auto cleansing system) 131 is connected to the microcomputer processor 120 ′ and the electrolytic cell 130 to clean the electrolytic cell. The function of performing the cleaning is described in detail in the description of Figs. 3 and 4 above. And the water flow control valve (V3) is discharged by dividing the acidic water and alkaline water. On the other hand, the microcomputer processor 120 'is the water supply valve (V1), the pump (P), the sensor (S), the magnetization processing unit 120, the drain control valve (V2), the electrode regulator (auto-cleaning system ) 131, and is connected to the electrolytic cell 130 to perform overall control.

Although the preferred embodiment of the present invention has been described above, the present invention may use various changes, modifications, and equivalents. It is clear that the present invention can be applied in the same manner by appropriately modifying the above embodiments. Accordingly, the above description does not limit the scope of the invention as defined by the limitations of the following claims.

As described above, the magnetized ionizer using the electrolytic device and the magnetizer according to the present invention has the effect of firstly dissolving the giant water molecule cluster into a structure that is easily ionized by magnetizing water using an electromagnet. .

Second, there is an effect that can adjust the strength of the magnetic field according to the flow rate or flow rate through the control of the magnetic regulator.

Third, it adheres to the anode and the cathode of the electrolytic cell, so that the cation or anion is dropped by changing the direction of the current, and then the water can be washed cleanly.

Fourth, the bypass tube is positioned around the magnetization portion to be affected by the magnetic field generated in the magnetization portion, thereby producing more stable magnetized ionized water.

Claims (4)

A pre-treatment filter unit for filtering impurities in primary water to remove impurities; Magnetization processing unit comprising a magnetization unit for magnetizing the influent water flowing out through the pre-treatment filter unit using an electromagnet, and a magnetic control unit electrically connected to the magnetization unit to control the current on, off or adjust the amount of current Wow; Magnetizing ionizer using an electrolytic device and a magnetization device, characterized in that the electrolytic cell for electrolyzing and ionizing the influent water flowing out of the magnetization processing section. The method of claim 1, wherein the magnetization unit A long cylindrical iron plate is provided, and a tourmaline ceramic rod-shaped pipe is mounted on the outer circumference of the electromagnet in which the outside of the cylindrical iron plate is wound in a copper wire to allow the inflow water to flow through the tourmaline ceramic rod-shaped pipe. Magnetized ionizer using an electrolytic device and a magnetizing device having a. The method of claim 1, wherein the magnetization unit The outside of the long hollow tube-shaped iron plate is wound in a copper wire, the inside is provided with an electromagnet having a structure coated with tourmaline ceramic, characterized in that the structure has a structure in which water can flow into the inside of the hollow tube-type iron plate Magnetized water ionizer using electrolyzer and magnetizer. The magnetization processing unit according to any one of claims 1 to 3, wherein the magnetization processing unit Electrolyte and magnetization device having a structure having a long hollow tube shape, characterized in that the bypass tube which is located around the magnetization portion and the inflow water from the electrolytic cell flows out again around the magnetization portion is further configured Magnetized water ionizer.

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